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ICE401: PROCESS INSTRUMENTATION
AND CONTROL
Class 42
Control Valves – Valve Positioners, Cavitation & Flashing
Dr. S. Meenatchisundaram
Email: [email protected]
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valve Positioners:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• The positioner is a high-gain plain proportional controller that
measures the valve stem position (to within 0.1 mm), compares
that measurement to its set point (the controller output signal),
and, if there is a difference, corrects the error.
• The open-loop gain of positioners ranges from 10 to 200
(proportional band of 10–0.5%), and their periods of oscillation range
between 0.3 and 10 sec (frequency response of 3–0.1 Hz). In other
words, the positioner is a very sensitively tuned, proportional-only
controller.
• The main purpose of having a positioner is to guarantee that the valve
does, in fact, move to the position where the controller wants it to be.
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Valve Positioners:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• The addition of a positioner can correct for many variations,
including changes in packing friction due to dirt, corrosion, or lack
of lubrication; variations in the dynamic forces of the process; sloppy
linkages (dead band); or nonlinearities in the valve actuator.
• The dead band of a valve/actuator combination can be as much as
5%; when a positioner is added, it can be reduced to less than 0.5%.
• It is the job of the positioner to protect the controlled variable
from being upset by any of the above variations.
• Actuators without springs always require positioners.
• When a valve is in remote manual (open loop) operation, it will
always benefit from the addition of a positioner, because a positioner
will reduce the valve’s hysteresis and dead band while increasing its
response.
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Valve Positioners:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• When the valve is under automatic (closed loop) control, the
positioner will be helpful in most slow loops, which control analytical
properties, temperature, liquid level, blending, slow flow, and large
volume gas flow.
Limitations:
• The positioner’s function as a cascade slave, can cause oscillation
and cycling on fast loops if the controller cannot be sufficiently
detuned.
• Similarly, negative force reactions on the plug require an increase in
actuator stiffness and not the addition of a positioner.
• Actuator stiffness can be improved by increasing the operating air
pressure or by using hydraulic actuators.
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Valve Positioners:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• The positioner in effect is the cascade slave of the loop controller.
• In order for a cascade slave to be effective, it must be faster than the
speed at which its set point, the master output signal, can change.
• The rules of thumb used in this respect suggest that the time constant
of the slave should be ten times shorter (open-loop gain ten times
higher) than that of the master and the period of oscillation of the
slave should be three times shorter (frequency response three times
higher) than that of the primary.
• The criteria for positioners need not be this stringent, but still, it is
recommended not to use positioners if the positioned valve is
slower than the process variable it is assigned to control.
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Valve Positioners:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valve Positioners:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Plug shapes:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valve Components:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valve Components:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valves:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valves:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Globe Valves:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Globe Valves – Single Port:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Globe Valves – Double Port:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Butterfly Valves:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Butterfly Valves:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valve Types:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valve Types:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valve Types:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Valve Sizing:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
:V
v
f
qC q GPM
PG
=∆
• Prior to about 1946 control valves were sized using the flow area of
the valve’s orifice in square inches together with some, usually
proprietary equations in order to estimate the amount of liquid or gas
passing through the valve.
• Thereafter, a new coefficient was introduced called Cv, which started
standardization in this field.
• This coefficient denotes the number of (U.S.) gallons of water that
a valve would pass when the pressure drop across it is 1 lb/in2.
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• When vaporization occurs, the proportionality between flow rate and
the square root of pressure drop ceases.
• The flow rate reaches a maximum (chocked) value, which is constant
and though the down stream pressure is further reduced. The cure will
be
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• This condition is referred as “chocked flow’. If large amount of
dissolved gases come out of solutions as the pressure drop in the flow,
these released gases will also restrict the flow.
• Vaporization can cause cavitation or flashing. Cavitation occurs when
static pressure anywhere in the valve drops to or below the vapour
pressure of the process liquid.
• Vaporization begins around microscopic gaseous nuclei. The
cavitation process includes the vapour cavity formation and
sudden condensation (collapse) of the vapour bubble driven by
pressure changes.
• The basic process of cavitation is related to the conservation of
energy and Bernoulli’s theorem, which describes the pressure profile
of a liquid flowing through a restriction or orifice.
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• Cavitation occurs when p2 > pv, while flashing takes place when p2 <
pv.
• When a liquid flashes into vapour, there is a large increase in volume.
• In this circumstance, the piping downstream of a valve needs to be
much larger than the inlet piping in order to keep the velocity of the
two-phase stream low enough to prevent erosion.
• The ideal valve to use for such applications is an angle valve with an
oversized outlet connection.
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• In order to accelerate the fluid through the restriction, some of
the pressure head is converted into velocity head.
• This transfer of static energy is needed to maintain the same mass
flow through the reduced passage. The fluid accelerates to its
maximum velocity, which corresponds to the point of minimum
pressure (vena contracta).
• The fluid velocity gradually slows down as it expands back to the
full pipe area. The static pressure also recovers somewhat, but part of
it is lost due to turbulence and friction.
• If the static pressure at any point drops below the liquid vapour
pressure (Pv) corresponding to the process temperature, then vapour
bubbles will form.
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• If enough energy is imparted to the growing vapour bubble to
overcome surface tension effects, the bubble will reach a critical
diameter and expand rapidly.
• As the static pressure recovers to a point greater than the vapour
pressure, the vapour will condense, causing the bubbles to
collapse violently back into their liquid phase.
• The growth and collapse of the bubbles produce high-energy
shock waves in the fluid. The collapse stage of the process (the bubble
implosion) produces the more severe shock waves.
• Shock waves and liquid microjets radiate for short distances from
imploding cavities and erode nearby surfaces.
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• Cavitation can cause erosion, noise, and vibration in piping
systems and therefore must be avoided.
• Extensive cavitation also causes choked flow conditions in the
valve.
Predicting and Mitigating Cavitation:
• Sizing a valve in liquid service for choked flow allows one to
determine its maximum flow capacity, but this is of limited value,
because most liquid-service valves should not be operated under
choked conditions.
• Special trim designs with multiple stages or multiple flow paths are
typically used to prevent severe cavitation and are better able to
operate at or near choked conditions without damage.
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
Pressure Recovery Factor (FL):
• FL is the pressure recovery factor, which indicates the size of the
pressure recovery relative to the valve pressure drop (Figure).
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
Pressure Recovery Factor (FL):
• FL is the pressure recovery factor, which indicates the size of the
pressure recovery relative to the valve pressure drop (Figure). FL is
defined as
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
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Flashing and Erosion:
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015
• Cavitation can cause erosion, noise, and vibration in piping
systems and therefore must be avoided.
• Extensive cavitation also causes choked flow conditions in the
valve.
Predicting and Mitigating Cavitation:
• Sizing a valve in liquid service for choked flow allows one to
determine its maximum flow capacity, but this is of limited value,
because most liquid-service valves should not be operated under
choked conditions.
• Special trim designs with multiple stages or multiple flow paths like
those in Figure are typically used to prevent severe cavitation and are
better able to operate at or near choked conditions without damage.
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References:
• Instrument Engineers' Handbook: Volume Two: Process Control
And Optimization (Fourth Edition) - Bela G. Liptak, CRC Press,
2005.
• Process Control – Principles and Applications, Surekha Bhanot,
Oxford Higher Education Press, 2012.
Process Instrumentation and Control (ICE 401)
Dr. S.Meenatchisundaram, MIT, Manipal, Aug – Nov 2015